More about magnetars
The extremely strong magnetic field with the quite small mass of this strange neutron star type is interesting the astronomers and other researchers. And as I wrote before there could be many reasons for the power of the magnetic field, what is about 1000 times more powerful than the regular neutron stars.
One of the explanations might be that the quite small mass of the magnetars is causing the effect, where the core of the neutron star would rotate faster than other neutron stars. The magnet field of the neutron star is forming by the same way with a generator, and the fast rotating core of the neutron star is causing the high-power magnetic field.
The rotation would happen because the material would drop to the surface of a neutron star, and because of the high-gravity level, the mass is touching the surface of the neutron stars with very high speed. And that releases very much impact energy, what is causing the heating of the mass, and also the high temperature with pressure, which is forming because the strong gravity would there also be the nuclear reactions in the material, what is touching the surface of this giant neutron.
The gravity field of this article would be extremely strong because all the mass of the star has been pressed to the particle, which is about 20 kilometers size. Sometimes some scientists have thought that the neutron star would turn to black holes in every case. But the magnetars might make an exception. Very high power bursts of gamma, X-ray and radio waves would cause that the magnetars would vaporize in a very short time. So what makes those magnetars so special?
The idea is that maybe magnetars are the collapsed stars, what mass is the border case. The star is just too big to create the white dwarf, and hardly enough to create the neutron star after the supernova. So the magnetars might be the "light neutron stars". Too heavy to be the white dwarf, but too light to create the stable neutron star, and this borderline case would create magnetar, the short-living neutron star, what might also have a goal to transform to a black hole.
Another explanation for magnetar is some of those neutron stars are collapsing to quark stars, and then to black holes. That means that there could be many types of magnetars, light and heavy versions of that phenomenon.
The radiation transforming from gamma- to X-ray tells about the change of the form of a magnetar.
There are explanations that the magnetars would vaporize, but the changing of the radiation from gamma to X-ray tells that there would be changes in the form of the object and the changes of the energy level of those violent reactions. There have been theories that only black holes can send X-rays and the transformation of the radiation tells that the power of reactions would increase.
The X-ray impulses would tell that the magnetar is transforming into another type of object, where reactions would release even more energy than the bursts of magnetars. And maybe the object is turning to thinner particle, what has more powerful gravity and magnet field than some neutron star.
Because "light" magnetars have the mass about 3-4 times the sun, that would make the outer layer of the neutron star rotating faster than a normal neutron star, where the gravity field would press the neutron star very thin, and that would slow the rotation speed of the outer layer. And the rotation speed of the outer layer determines how strong would the magnet field.
Even if magnetars have weaker gravity field than normal neutron stars the speed of the outer layer would increase to the levels, what we ever could imagine. And that thing causes that the star would pull plasma on its surface by using magnet field. When the material would hit to the surface, it would push the outer layer of the neutron star to rotate, and every each particle what will touch the neutron star would increase the rotation speed of this object.
When the material would touch the surface of the neutron stars, that would cause a similar fusion reaction, what happens in the normal star, but it happens on the surface of a neutron star. Then the ions would start to travel to the polar of that object, and those particles are forming electron or proton jettisons, and this is making them pulsars. But a small part of material would stay on the surface of a neutron star, and sooner or later that plack would collapse causing the thing, what is called as gamma- or X-ray bursts.
The extremely strong magnetic field with the quite small mass of this strange neutron star type is interesting the astronomers and other researchers. And as I wrote before there could be many reasons for the power of the magnetic field, what is about 1000 times more powerful than the regular neutron stars.
One of the explanations might be that the quite small mass of the magnetars is causing the effect, where the core of the neutron star would rotate faster than other neutron stars. The magnet field of the neutron star is forming by the same way with a generator, and the fast rotating core of the neutron star is causing the high-power magnetic field.
The rotation would happen because the material would drop to the surface of a neutron star, and because of the high-gravity level, the mass is touching the surface of the neutron stars with very high speed. And that releases very much impact energy, what is causing the heating of the mass, and also the high temperature with pressure, which is forming because the strong gravity would there also be the nuclear reactions in the material, what is touching the surface of this giant neutron.
The gravity field of this article would be extremely strong because all the mass of the star has been pressed to the particle, which is about 20 kilometers size. Sometimes some scientists have thought that the neutron star would turn to black holes in every case. But the magnetars might make an exception. Very high power bursts of gamma, X-ray and radio waves would cause that the magnetars would vaporize in a very short time. So what makes those magnetars so special?
The idea is that maybe magnetars are the collapsed stars, what mass is the border case. The star is just too big to create the white dwarf, and hardly enough to create the neutron star after the supernova. So the magnetars might be the "light neutron stars". Too heavy to be the white dwarf, but too light to create the stable neutron star, and this borderline case would create magnetar, the short-living neutron star, what might also have a goal to transform to a black hole.
Another explanation for magnetar is some of those neutron stars are collapsing to quark stars, and then to black holes. That means that there could be many types of magnetars, light and heavy versions of that phenomenon.
The radiation transforming from gamma- to X-ray tells about the change of the form of a magnetar.
There are explanations that the magnetars would vaporize, but the changing of the radiation from gamma to X-ray tells that there would be changes in the form of the object and the changes of the energy level of those violent reactions. There have been theories that only black holes can send X-rays and the transformation of the radiation tells that the power of reactions would increase.
The X-ray impulses would tell that the magnetar is transforming into another type of object, where reactions would release even more energy than the bursts of magnetars. And maybe the object is turning to thinner particle, what has more powerful gravity and magnet field than some neutron star.
Because "light" magnetars have the mass about 3-4 times the sun, that would make the outer layer of the neutron star rotating faster than a normal neutron star, where the gravity field would press the neutron star very thin, and that would slow the rotation speed of the outer layer. And the rotation speed of the outer layer determines how strong would the magnet field.
Even if magnetars have weaker gravity field than normal neutron stars the speed of the outer layer would increase to the levels, what we ever could imagine. And that thing causes that the star would pull plasma on its surface by using magnet field. When the material would hit to the surface, it would push the outer layer of the neutron star to rotate, and every each particle what will touch the neutron star would increase the rotation speed of this object.
When the material would touch the surface of the neutron stars, that would cause a similar fusion reaction, what happens in the normal star, but it happens on the surface of a neutron star. Then the ions would start to travel to the polar of that object, and those particles are forming electron or proton jettisons, and this is making them pulsars. But a small part of material would stay on the surface of a neutron star, and sooner or later that plack would collapse causing the thing, what is called as gamma- or X-ray bursts.
Comments
Post a Comment